-- CALIFORNIA D EPAUMENT OF cdfa FOOD & AGRICULTURE ~ California Pest Rating Proposal for Colletotrichum tropicale Rojas, Rehner & Samuels 2010 Current Pest Rating: Q Proposed Pest Rating: B Kingdom: Fungi; Division: Ascomycota Class: Sordariomycetes; Order: Glomerellales Family: Glomerellaceae Comment Period: 10/05/2020 through 11/19/2020 Initiating Event: On July 24, 2020, a San Diego County agricultural inspector submitted a sample of leaves from Dracaena reflexa ‘Song of India’ cuttings. The cuttings were an incoming quarantine nursery shipment from Costa Rica heading to a wholesale nursery for propagation. On August 28, 2020, CDFA plant pathologist Albre Brown diagnosed anthracnose, caused by the fungus Colletotricum. With multigene analysis, she identified two species of Colletotricum from the cuttings; C. fructicola (B-rated) and C. tropicale. This is the first detection of C. tropicale in California and the first detection on Dracaena reflexa. The only other US detections of C. tropicale have been causing pod rot of cacao in Puerto Rico (Serrato-Diaz et al., 2020). It was assigned a temporary Q-rating. The risk to California from C. tropicale is described herein and a permanent rating is proposed. History & Status: Background: Anthracnose diseases caused by Colletotrichum spp. can cause devastating losses in many economically important crops, including tree fruits, small fruits, vegetables, cassava, and sorghum, as well as ornamental foliage plants (Agrios, 2005). Colletotrichum is the sole genus in the fungus family Glomerellaceae. There are approximately 200 accepted Colletotrichum species in eleven species complexes and 23 singleton species (Jayawardena et al., 2016 a, b). Many pathogenic Colletotrichum species can also be present as symptomless, cryptic endophytes in living plant tissues, and many appear to be non-pathogenic (Cannon et al., 2012). -- CALIFORNIA D EPAUMENT OF cdfa FOOD & AGRICULTURE ~ The gloeosporioides species complex includes 37 species, including C. gloeosporioides. Most of these species are plant pathogens (Weir et al., 2012), but some species have been isolated as endophytes (Liu et al., 2015). Conidia of this species complex are cylindrical with rounded ends tapering slightly towards the base (Weir et al., 2012). Utilizing a multigene phylogenetic analysis, Weir et al. (2012) designated subclades within the species complex. Rojas et al. (2010) studied a collection of C. gloeosporoides s. l. isolates associated with Theobroma cacao and other plants in Panama. From among these C. tropicale sp. nov., an endophyte of cacao associated with fruit rot on soursop (Annona muricata), was described. This species can be pathogenic or endophytic and infects the leaves and fruits, causing lesions and rots respectively. Subsequently, it has been found in Asia and North and South America. Hosts: Anacardium occidentale (cashew), Annona cherimola (cherimoya), Annona muricata (soursop), Areca catechu (areca palm), Azadirachta indica (neem), Bauhinia variegata (purple orchid tree), Bougainvillea sp. (bougainvilla), Capsicum annuum (chili pepper), Catharanthus roseus (periwinkle), Cattleya labiata (crimson cattleya), Cattleya sp. (cattyla), Coffea canephora var. robusta (coffee), Copernicia prunifera (carnaba palm), Cordia aliodora (Spanish elm), Curcuma longa (turmeric), Dracaena reflexa (song of India), Ficus binnendijkii (narrow leaf fig), Licania tomentosa (oiti), Litchi chinensis (lychee), Mangifera indica (mango), Manihot dichotoma (cassava), Manihot epruinosa (cassava), Morinda citrifolia (noni), Myrciaria cauliflora (jaboticaba), Myrciaria dubia (camu-camu), Nelumbo nucifera (sacred lotus), Origanum vulgare (oregano), Pennisetum purpureum (elephant grass), Psidium guajava (common guava), Punica granatum (pomegranate), Sauropus androgynus (katuk), Theobroma cacao (cocoa), Trichilia tuberculata, and Viola surinamensis (baboonwood) (Farr and Rossman, 2020; Matos et al., 2020) Symptoms: Anthracnose symptoms on mango can develop on leaves, twigs, petioles, panicles, and fruits. On leaves, lesions start as small, angular, brown to black spots that can enlarge to form extensive dead areas. The lesions may drop out of leaves during dry weather. Many green fruit infections remain latent and quiescent until ripening. Thus, fruits can appear healthy at harvest but develop significant anthracnose symptoms rapidly upon ripening. Infected fruits may drop from trees prematurely. Ripe fruits develop sunken, prominent, dark brown to black decay spots. The fruit spots usually coalesce and can eventually penetrate deep into the fruit, resulting in extensive fruit rotting. A second fruit symptom is a “tear stain”, which consists of linear necrotic regions on the fruit that may or may not be associated with superficial cracking of the epidermis. Infection can cause fruits to develop wide, deep cracks in the epidermis that extend into the pulp (Nelson, 2008). At least four Colletotrichum species in addition to C. tropicale can cause mango anthracnose. On the leaves of Sauropus androgynus, initial symptoms include water-soaked spots 0.2 to 0.3 mm in diameter, which develop into circular or irregular-shaped lesions with a grayish white center and dark- brown margin (Liu et al., 2018). Lesions on oregano leaves are irregular, brown, and yellow-haloed (Ayvar-Serna et al., 2020). Similar to mangos, fruits of infected pomegranate show dark, circular, and necrotic lesions (Silva-Cabral et al., 2019). On leaves of F. binnendijkii var. variegata, lesions appear along the margin of the leaves and are subcircular or irregularly shaped, brown to black, water-soaked, -- CALIFORNIA D EPAUMENT OF cdfa FOOD & AGRICULTURE ~ and sunken. The black lesions enlarge and coalesce into large necrotic areas. Later, the middle parts of the lesions become grayish white and often has irregular fine wrinkles (Kong et al., 2019). Transmission: Wet, humid, warm weather conditions favor anthracnose infections in the field and warm, humid temperatures also favor postharvest anthracnose development. Lesions on stems and fruits may produce conspicuous, pinkish-orange spore masses under wet conditions that are moved by wind, wind-driven rain, cultivation tools, and human contact. Damage Potential: Worldwide, anthracnose is one of the most important and destructive diseases of mango. A 65% incidence of infection caused by Colletotrichum spp. was reported on Sauropus in China. (Liu et al., 2018). Disease incidences on oregano have resulted in significant (25%) crop loss in Mexico (Ayvar-Serna et al., 2020). On Ficus binnendijkii var. variegata, a horticultural cultivar, like Dracaena reflexa ‘Song of India’, grown throughout tropical and subtropical regions, anthracnose is known to have affected up 96% of the total crop; resulting in the complete loss of yield (Kong et al., 2019). Worldwide Distribution: Brazil, China, Cuba, India, Indonesia, Japan, Mexico, Panama, Taiwan, Thailand, and the United States (California and Puerto Rico) (Farr and Rossman, 2020). Official Control: In California C. tropicale is an actionable, Q-rated pathogen and incoming infected plant material is subject to rejection for return to the origin shipper or destruction. California Distribution: There has been one detection of this pathogen in San Diego County on Song of India (Dracaena reflexa) cuttings that entered California from Costa Rica as a nursery shipment subject to state exterior quarantine. California Interceptions: none The risk Colletotrichum tropicale would pose to California is evaluated below. Consequences of Introduction: 1) Climate/Host Interaction: Like other species of Colletotrichum, C. tropicale requires humid, wet, rainy weather for conidia to infect host plants. This environmental requirement may limit the ability of the pathogen to fully establish and spread under dry field conditions in California. The pathogen could establish within limited regions under conducive climates or in greenhouse plant production. Evaluate if the pest would have suitable hosts and climate to establish in California. Score: 2 - Low (1) Not likely to establish in California; or likely to establish in very limited areas. - Medium (2) may be able to establish in a larger but limited part of California. - High (3) likely to establish a widespread distribution in California. -- CALIFORNIA D EPAUMENT OF cdfa FOOD & AGRICULTURE ~ 2) Known Pest Host Range: Although many of the plants on the host list are tropical, some are subtropical and grown in warmer parts of California for fruit or as ornamentals Evaluate the host range of the pest. Score: 3 - Low (1) has a very limited host range. - Medium (2) has a moderate host range. - High (3) has a wide host range. 3) Pest Reproductive Potential: The pathogen has high reproductive potential and conidia are produced successively. They are transmitted by wind, wind-driven rain, cultivation tools, and human contact. However, conidial germination and plant infection require long, wet periods. Evaluate the natural and artificial dispersal potential of the pest. Score: 3 - Low (1) does not have high reproductive or dispersal potential. - Medium (2) has either high reproductive or dispersal potential. - High (3) has both high reproduction and dispersal potential. 4) Economic Impact: Fruit production in particular, can be limited by its susceptibility to anthracnose fungi under wet conditions. Therefore, under suitable climates, the pathogen could lower plant growth, fruit production and value. Evaluate the economic impact of the pest to California
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